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Yusuf Hamied Department of Chemistry

 

Professor Ali Alavi FRS

Professor of Theoretical Chemistry

The work of our group is primarily focused on the electron correlation problem - namely how to compute the correlation energy for an atom, molecule, or even solid, starting from a mean-field (say Hartree-Fock) description of the system. Our approach is to combine quantum chemical ideas with stochastic (Monte Carlo) techniques, which enable us to tackle problems which are very difficult to solve use standard quantum chemical techniques alone.

We are developing Quantum Monte Carlo algorithms adapted for electronic (and more generally Fermionic) problems by working in Slater determinant spaces. The central problem which is encountered is the infamous "Fermion sign problem", which results from electronic wavefunctions having both positive and negative amplitudes. Currently we are working on a novel population dynamics algorithm which propagates walkers in Slater determinant space according to a type of "stochastic cellular automaton" obeying simple rules. The movie on the home page of our research group website shows an evolving population of walkers of positive and negative sign settling on the FCI wavefunction of a nitrogen dimer in a minimal basis - an archetypal multireference system. The remarkable aspect of this dynamics is the spontaneous symmetry breaking caused by annhilation processes, allowing the exact nodal surface of the nitrogen molecule, as expressed by the CI coefficients, molecule to appear. No fixed-node approximation is applied.

Further animations of this method in action can be viewed here.

Publications

Atomic and electronic structure and interatomic potentials at a polar ceramic/metal interface: {222}MgO/Cu
R Benedek, DN Seidman
– Physical Review B
(1999)
60,
16094
(doi: 10.1103/physrevb.60.16094)
A general mechanism for CO oxidation on close-packed transition metal surfaces
C Zhang, P Hu, A Alavi
– Journal of the American Chemical Society
(1999)
121,
7931
(doi: 10.1021/ja991475x)
Pressure-induced isostructural phase transition in Al-rich NiAl allays
A Alavi, AY Lozovoi, MW Finnis
– Physical Review Letters
(1999)
83,
979
(doi: 10.1103/PhysRevLett.83.979)
Physical origin of the high reactivity of subsurface hydrogen in catalytic hydrogenation
A Michaelides, P Hu, A Alavi
– The Journal of Chemical Physics
(1999)
111,
1343
(doi: 10.1063/1.479392)
The electrostatic properties of water molecules in condensed phases: An ab initio study
L Delle Site, A Alavi, RM Lynden-Bell
– Molecular Physics
(1999)
96,
1683
(doi: 10.1080/00268979909483112)
Displacement and distortion of the ammonium ion in rotational transition states in ammonium fluoride and ammonium chloride
A Alavi, RM Lynden-Bell, RJC Brown
– Journal of Chemical Physics
(1999)
110,
5861
(doi: 10.1063/1.478485)
First-principles calculations of the ideal cleavage energy of bulk niobium(111)/α-alumina(0001) interfaces
IG Batirev, A Alavi, MW Finnis, T Deutsch
– Physical Review Letters
(1999)
82,
1510
(doi: 10.1103/physrevlett.82.1510)
Ab initio calculations on the Al2O3(0001) surface
I Batyrev, A Alavi, MW Finnis
– Faraday Discussions
(1999)
114,
33
(doi: 10.1039/a903278i)
CO Oxidation on Pt(111): AnAb InitioDensity Functional Theory Study
A Alavi, P Hu, T Deutsch, PL Silvestrelli, J Hutter
– Physical Review Letters
(1998)
80,
3650
(doi: 10.1103/PhysRevLett.80.3650)
What is the nature of the Aphase of solid hydrogen?
A Alavi
– Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences
(1998)
356,
263
(doi: 10.1098/rsta.1998.0162)
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Research Group

Research Interest Group

Telephone number

01223 762877

Email address

asa10@cam.ac.uk

College

Trinity College

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    About the University

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